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25th INTERNATIONAL CONFERENCE
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[citace_text] => VENGLÁŘ, V.; KRÁLÍK, J. A SENSORY NETWORK WITH BINARY TREE TOPOLOGY: PROTOTYPE AND EVALUATION. In ENGINEERING MECHANICS 2019 25th INTERNATIONAL CONFERENCE. 2019. p. 387-390. ISBN: 978-80-87012-71-0.
[citace_html] => VENGLÁŘ, V.; KRÁLÍK, J. A SENSORY NETWORK WITH BINARY TREE TOPOLOGY: PROTOTYPE AND EVALUATION. In ENGINEERING MECHANICS 2019 25th INTERNATIONAL CONFERENCE. 2019. p. 387-390. ISBN: 978-80-87012-71-0.
[citace_rtf] =>
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author="Vojtěch {Venglář} and Jan {Králík}",
title="A SENSORY NETWORK WITH BINARY TREE TOPOLOGY: PROTOTYPE AND EVALUATION",
booktitle="ENGINEERING MECHANICS 2019
25th INTERNATIONAL CONFERENCE",
year="2019",
pages="387--390",
doi="10.21495/71-0-387",
isbn="978-80-87012-71-0",
url="http://www.engmech.cz/im/proceedings/show/2019"
}
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[nazev_en] => A SENSORY NETWORK WITH BINARY TREE TOPOLOGY: PROTOTYPE AND EVALUATION
[popis_en] => Sensors are widely used in various applications. In order to make the data handling easier, the sensors are being connected into sensor networks. A new sensor network was proposed. It is a wired network with analogue signal transmission. The purpose of this work has been to build a functional prototype, design tests for performance evaluation, execute them and evaluate the results. Based on the measured data, the network was declared functional as a concept. It can be usable in standard or lower precision applications. However, it is not recommended for high precision applications at the time due to accuracy and consistency issues.
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[nazev] => Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading
[nazev_orig] => Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading
[duvernost_udaju_id] => S
[popis] => The problem of crack path stability along the interface between two orthotropic elastically dissimilar materials under the presence of in-plane residual stresses is analyzed using the concept of Finite Fracture Mechanics and matched asymptotic procedure. The complex stress intensity factor and the T-stress characterizing the stress state at the crack tip are calculated both for the thermal (residual stresses) and mechanical loading using the two-state integral. The matched asymptotic procedure together with FEM is used to derive the change of the potential energy induced by the incremental crack growth (and correspondingly the incremental energy release rate of such a crack), which is needed for the fracture criterion formulation. An energy based fracture criterion is introduced for this problem and it is investigated whether and how is the criterion for the prediction of crack kinking from the interface affected by residual stresses.
[popis_orig] => The problem of crack path stability along the interface between two orthotropic elastically dissimilar materials under the presence of in-plane residual stresses is analyzed using the concept of Finite Fracture Mechanics and matched asymptotic procedure. The complex stress intensity factor and the T-stress characterizing the stress state at the crack tip are calculated both for the thermal (residual stresses) and mechanical loading using the two-state integral. The matched asymptotic procedure together with FEM is used to derive the change of the potential energy induced by the incremental crack growth (and correspondingly the incremental energy release rate of such a crack), which is needed for the fracture criterion formulation. An energy based fracture criterion is introduced for this problem and it is investigated whether and how is the criterion for the prediction of crack kinking from the interface affected by residual stresses.
[klicova_slova] => Interface crack, Finite Fracture Mechanics, Crack kinking, Fracture Criterion, FEM, T-stress
[klicova_slova_orig] => Interface crack, Finite Fracture Mechanics, Crack kinking, Fracture Criterion, FEM, T-stress
[url] => https://www.sciencedirect.com/science/article/pii/S0167844219304975
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[citace_text] => ŠEVEČEK, O.; KOTOUL, M.; PROFANT, T.; HRSTKA, M. Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading. THEORETICAL AND APPLIED FRACTURE MECHANICS, 2020, vol. 105, no. 1, p. 1-18. ISSN: 0167-8442.
[citace_html] => ŠEVEČEK, O.; KOTOUL, M.; PROFANT, T.; HRSTKA, M. Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading. THEORETICAL AND APPLIED FRACTURE MECHANICS, 2020, vol. 105, no. 1, p. 1-18. ISSN: 0167-8442.
[citace_rtf] =>
[citace_bibtex] => @article{BUT160774,
author="Oldřich {Ševeček} and Michal {Kotoul} and Tomáš {Profant} and Miroslav {Hrstka}",
title="Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading",
journal="THEORETICAL AND APPLIED FRACTURE MECHANICS",
year="2020",
volume="105",
number="1",
pages="1--18",
doi="10.1016/j.tafmec.2019.102397",
issn="0167-8442",
url="https://www.sciencedirect.com/science/article/pii/S0167844219304975"
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[nazev_en] => Crack kinking out of interface of two orthotropic materials under combined thermal/mechanical loading
[popis_en] => The problem of crack path stability along the interface between two orthotropic elastically dissimilar materials under the presence of in-plane residual stresses is analyzed using the concept of Finite Fracture Mechanics and matched asymptotic procedure. The complex stress intensity factor and the T-stress characterizing the stress state at the crack tip are calculated both for the thermal (residual stresses) and mechanical loading using the two-state integral. The matched asymptotic procedure together with FEM is used to derive the change of the potential energy induced by the incremental crack growth (and correspondingly the incremental energy release rate of such a crack), which is needed for the fracture criterion formulation. An energy based fracture criterion is introduced for this problem and it is investigated whether and how is the criterion for the prediction of crack kinking from the interface affected by residual stresses.
[klicova_slova_en] => Interface crack, Finite Fracture Mechanics, Crack kinking, Fracture Criterion, FEM, T-stress
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)
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[nazev] => Design of damage tolerant and crack-free layered ceramics with textured microstructure
[nazev_orig] => Design of damage tolerant and crack-free layered ceramics with textured microstructure
[duvernost_udaju_id] => S
[popis] => This work demonstrates damage tolerant behavior of ceramic laminates designed with residual stresses and free of surface edge cracks. Non-periodic architectures were designed by embedding 2 textured alumina (TA) layers
between 3 equiaxed alumina-zirconia (AZ) layers. Compressive residual stresses of ∼ 250 MPa were induced in
the textured layers. Indentation strength tests showed that textured compressive layers arrested the propagation
of cracks. Results were compared to periodic architectures with the same volume ratio of TA and AZ materials.
Crack propagation was arrested in both periodic and non-periodic designs; the minimum threshold-strength
being higher in the latter. Non-periodic architectures with compressive layers as thin as ∼ 200 μm showed no
evidence of surface edge cracks, yet still reached minimum threshold strength values of ∼ 300 MPa. In addition,
the textured microstructure promoted crack bifurcation in the thin compressive layers and thus enhanced the
damage tolerance of the material.
[popis_orig] => This work demonstrates damage tolerant behavior of ceramic laminates designed with residual stresses and free of surface edge cracks. Non-periodic architectures were designed by embedding 2 textured alumina (TA) layers
between 3 equiaxed alumina-zirconia (AZ) layers. Compressive residual stresses of ∼ 250 MPa were induced in
the textured layers. Indentation strength tests showed that textured compressive layers arrested the propagation
of cracks. Results were compared to periodic architectures with the same volume ratio of TA and AZ materials.
Crack propagation was arrested in both periodic and non-periodic designs; the minimum threshold-strength
being higher in the latter. Non-periodic architectures with compressive layers as thin as ∼ 200 μm showed no
evidence of surface edge cracks, yet still reached minimum threshold strength values of ∼ 300 MPa. In addition,
the textured microstructure promoted crack bifurcation in the thin compressive layers and thus enhanced the
damage tolerance of the material.
[klicova_slova] => Layered ceramics; Edge crack; Non-periodic textured architecture; Residual stresses; Damage tolerance
[klicova_slova_orig] => Layered ceramics; Edge crack; Non-periodic textured architecture; Residual stresses; Damage tolerance
[url] => https://www.sciencedirect.com/science/article/pii/S095522191930603X
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[citace_text] => HOFER, A.; WALTON, R.; ŠEVEČEK, O.; MESSING, G.; BERMEJO, R. Design of damage tolerant and crack-free layered ceramics with textured microstructure. Journal of the European Ceramic Society, 2020, vol. 2020, no. 40, p. 427-435. ISSN: 0955-2219.
[citace_html] => HOFER, A.; WALTON, R.; ŠEVEČEK, O.; MESSING, G.; BERMEJO, R. Design of damage tolerant and crack-free layered ceramics with textured microstructure. Journal of the European Ceramic Society, 2020, vol. 2020, no. 40, p. 427-435. ISSN: 0955-2219.
[citace_rtf] =>
[citace_bibtex] => @article{BUT161136,
author="Anna-Katherina {Hofer} and Rebecca {Walton} and Oldřich {Ševeček} and Gary L. {Messing} and Raul {Bermejo}",
title="Design of damage tolerant and crack-free layered ceramics with textured microstructure",
journal="Journal of the European Ceramic Society",
year="2020",
volume="2020",
number="40",
pages="427--435",
doi="10.1016/j.jeurceramsoc.2019.09.004",
issn="0955-2219",
url="https://www.sciencedirect.com/science/article/pii/S095522191930603X"
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[poznamka_metriky] =>
[nazev_en] => Design of damage tolerant and crack-free layered ceramics with textured microstructure
[popis_en] => This work demonstrates damage tolerant behavior of ceramic laminates designed with residual stresses and free of surface edge cracks. Non-periodic architectures were designed by embedding 2 textured alumina (TA) layers
between 3 equiaxed alumina-zirconia (AZ) layers. Compressive residual stresses of ∼ 250 MPa were induced in
the textured layers. Indentation strength tests showed that textured compressive layers arrested the propagation
of cracks. Results were compared to periodic architectures with the same volume ratio of TA and AZ materials.
Crack propagation was arrested in both periodic and non-periodic designs; the minimum threshold-strength
being higher in the latter. Non-periodic architectures with compressive layers as thin as ∼ 200 μm showed no
evidence of surface edge cracks, yet still reached minimum threshold strength values of ∼ 300 MPa. In addition,
the textured microstructure promoted crack bifurcation in the thin compressive layers and thus enhanced the
damage tolerance of the material.
[klicova_slova_en] => Layered ceramics; Edge crack; Non-periodic textured architecture; Residual stresses; Damage tolerance
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)
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[nazev] => Snímací vrstva pro strojní součásti
[nazev_orig] => Snímací vrstva pro strojní součásti
[duvernost_udaju_id] => S
[popis] => Technické řešení se týká snímací vrstvy na bázi piezoelektrických prvků upevněné na strojních součástech ke snímání jejich vibrací. Technické řešení spadá do oborů snímání mechanického přetvoření a vibrodiagnostiky.
Technické řešení si klade za úkol navrhovat a koncipovat strojní součásti, především pak jejich nosné části a součásti přenášející vibrace, jako autonomní systémy s integrovanou aktivní snímací vrstvou, která je jejich nedílnou součástí. Takovou součást lze chápat jako tzv. chytrou strojní součást, představující základní stavební prvek moderních strojů sestavených pomocí technologií Průmyslu 4.0.
Uvedený úkol řeší snímací vrstva pro strojní součásti na bázi piezoelektrických prvků. Její podstata spočívá v tom, že je tvořena poddajnou vrstvou piezoelektrického materiálu v epoxidové matrici vloženou mezi dvě vrstvy elektrod, z nichž alespoň jedna je opatřena poddajnou nevodivou krycí vrstvou, přičemž plocha snímací vrstvy činí alespoň 5 % relevantní plochy strojní součásti.
[popis_orig] => Technické řešení se týká snímací vrstvy na bázi piezoelektrických prvků upevněné na strojních součástech ke snímání jejich vibrací. Technické řešení spadá do oborů snímání mechanického přetvoření a vibrodiagnostiky.
Technické řešení si klade za úkol navrhovat a koncipovat strojní součásti, především pak jejich nosné části a součásti přenášející vibrace, jako autonomní systémy s integrovanou aktivní snímací vrstvou, která je jejich nedílnou součástí. Takovou součást lze chápat jako tzv. chytrou strojní součást, představující základní stavební prvek moderních strojů sestavených pomocí technologií Průmyslu 4.0.
Uvedený úkol řeší snímací vrstva pro strojní součásti na bázi piezoelektrických prvků. Její podstata spočívá v tom, že je tvořena poddajnou vrstvou piezoelektrického materiálu v epoxidové matrici vloženou mezi dvě vrstvy elektrod, z nichž alespoň jedna je opatřena poddajnou nevodivou krycí vrstvou, přičemž plocha snímací vrstvy činí alespoň 5 % relevantní plochy strojní součásti.
[klicova_slova] => Vibrace, piezoelektrina, chytrá součást
[klicova_slova_orig] => Vibrace, piezoelektrina, chytrá součást
[url] =>
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[vycet_osob] => HADAŠ, Z.; KŠICA, F.; RUBEŠ, O.
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[poznamka] => Interní označení výsledku: TN01000071/02-V12
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[citace_text] => HADAŠ, Z.; KŠICA, F.; RUBEŠ, O.; Vysoké učení technické v Brně: Snímací vrstva pro strojní součásti. 33551, Užitný vzor. (2019)
[citace_html] => HADAŠ, Z.; KŠICA, F.; RUBEŠ, O.; Vysoké učení technické v Brně: Snímací vrstva pro strojní součásti. 33551, Užitný vzor. (2019)
[citace_rtf] =>
[citace_bibtex] => @misc{BUT161192,
author="Zdeněk {Hadaš} and Filip {Kšica} and Ondřej {Rubeš}",
title="Snímací vrstva pro strojní součásti",
year="2019",
note="Utility model"
}
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[poznamka_metriky] =>
[nazev_en] => Smart layer of mechanical part
[popis_en] => The technical solution deals with an application of a sensitive layer attached to functional machine structures used to measure the vibrations. The technical solution falls into the category of a mechanical strain sensing and vibrodiagnostics.
Technical solution aims to design and develop machine structures, especially load bearing structures and structures transmitting mechanical vibrations, as autonomous systems with embedded sensing layers as their integral parts. Such structure can be understood as so-called Smart Structure with self-monitoring capabilities, thus forming a basic building element of modern machinery design with respect to the Industry 4.0 philosophy.
The proposed solution is based on an application of a sensing layer composed of piezocomposite patches. A piezocomposite consists of a flexible layer of piezoelectric material embedded in an epoxy matrix sandwiched between two electrodes, of which at least one is covered by a flexible protective layer, while the area of the sensitive layer forms at least 5% of the overall relevant area of the underlying machine structure.
[klicova_slova_en] => Vibration, piezoelectrics, SMART part
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[nazev] => Experimental FEM validation of the composite recurve bow
[nazev_orig] => Experimental FEM validation of the composite recurve bow
[duvernost_udaju_id] => S
[popis] => The main scope of this article is to present the results of several experiments that were performed on the developed home-made composite recurve bow fabricated from ash wood, GFRP and CFRP. The results are compared with validated FEM. The FEM is validated by comparison with: measured draw force, measured strain during the bow draw at two selected locations, measured signals at the same locations of the excited bow without the string from which eigen frequencies are evaluated using FFT. All measured data show good compliance with the validated FEM. The main advantage of those experiments is a possible alternative evaluation of stiffness orthotropic material properties without the need of dedicated test setup generally connected with extra cost.
[popis_orig] => The main scope of this article is to present the results of several experiments that were performed on the developed home-made composite recurve bow fabricated from ash wood, GFRP and CFRP. The results are compared with validated FEM. The FEM is validated by comparison with: measured draw force, measured strain during the bow draw at two selected locations, measured signals at the same locations of the excited bow without the string from which eigen frequencies are evaluated using FFT. All measured data show good compliance with the validated FEM. The main advantage of those experiments is a possible alternative evaluation of stiffness orthotropic material properties without the need of dedicated test setup generally connected with extra cost.
[klicova_slova] => FEM validation; CFRP; GFRP; recurve bow; orthotropic material; testing; strain gauge; load cell; FFT; modal analysis; large deflections; non-linear static analysis
[klicova_slova_orig] => FEM validation; CFRP; GFRP; recurve bow; orthotropic material; testing; strain gauge; load cell; FFT; modal analysis; large deflections; non-linear static analysis
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[citace_text] => SLÁMA, D.; NÁVRAT, T.; KREJČÍ, P. Experimental FEM validation of the composite recurve bow. In Experimental Stress Analysis 2019. 2019. p. 475-481. ISBN: 978-80-214-5766-9.
[citace_html] => SLÁMA, D.; NÁVRAT, T.; KREJČÍ, P. Experimental FEM validation of the composite recurve bow. In Experimental Stress Analysis 2019. 2019. p. 475-481. ISBN: 978-80-214-5766-9.
[citace_rtf] =>
[citace_bibtex] => @inproceedings{BUT161294,
author="David {Sláma} and Tomáš {Návrat} and Petr {Krejčí}",
title="Experimental FEM validation of the composite recurve bow",
booktitle="Experimental Stress Analysis 2019",
year="2019",
pages="475--481",
isbn="978-80-214-5766-9"
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[nazev_en] => Experimental FEM validation of the composite recurve bow
[popis_en] => The main scope of this article is to present the results of several experiments that were performed on the developed home-made composite recurve bow fabricated from ash wood, GFRP and CFRP. The results are compared with validated FEM. The FEM is validated by comparison with: measured draw force, measured strain during the bow draw at two selected locations, measured signals at the same locations of the excited bow without the string from which eigen frequencies are evaluated using FFT. All measured data show good compliance with the validated FEM. The main advantage of those experiments is a possible alternative evaluation of stiffness orthotropic material properties without the need of dedicated test setup generally connected with extra cost.
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[nazev] => Chladící systém magnetického obvodu elektrického stroje
[nazev_orig] => Chladící systém magnetického obvodu elektrického stroje
[duvernost_udaju_id] => S
[popis] => Chladící systém magnetického obvodu elektrického stroje obsahujícího stator a rotor, kde magnetický obvod statoru je tvořen statorovým blokem sestaveným z příčně uspořádaných statorových plechů a magnetický obvod rotoru je tvořen rotorovým blokem sestaveným z příčně uspořádaných rotorových plechů, přičemž plochy statorových plechů i rotorových plechů jsou opatřeny otvory vytvářejícími po sestavení statorových plechů do statorového bloku statorový chladící kanál a po sestavení rotorových plechů do rotorového bloku rotorový chladící kanál. Ve statorovém bloku a/nebo v rotorovém bloku, vytvářejících statorový chladící kanál nebo rotorový chladící kanál o průměru D, jsou v délkových intervalech o velikosti p mezi standardními statorovými plechy vloženy zdrsňující statorové plechy a/nebo mezi standardní rotorové plechy vloženy zdrsňující rotorové plechy , mezi jejichž zdrsňujícími okraji jsou otvory o průměru d, přičemž poměr hodnot d/D se pohybuje v rozmezí hodnot 0,90 až 0,95.
[popis_orig] => Chladící systém magnetického obvodu elektrického stroje obsahujícího stator a rotor, kde magnetický obvod statoru je tvořen statorovým blokem sestaveným z příčně uspořádaných statorových plechů a magnetický obvod rotoru je tvořen rotorovým blokem sestaveným z příčně uspořádaných rotorových plechů, přičemž plochy statorových plechů i rotorových plechů jsou opatřeny otvory vytvářejícími po sestavení statorových plechů do statorového bloku statorový chladící kanál a po sestavení rotorových plechů do rotorového bloku rotorový chladící kanál. Ve statorovém bloku a/nebo v rotorovém bloku, vytvářejících statorový chladící kanál nebo rotorový chladící kanál o průměru D, jsou v délkových intervalech o velikosti p mezi standardními statorovými plechy vloženy zdrsňující statorové plechy a/nebo mezi standardní rotorové plechy vloženy zdrsňující rotorové plechy , mezi jejichž zdrsňujícími okraji jsou otvory o průměru d, přičemž poměr hodnot d/D se pohybuje v rozmezí hodnot 0,90 až 0,95.
[klicova_slova] => chlazení elektrického stroje, žebrovaný kanál, hydraulické ztráty, součinitel přenosu tepla
[klicova_slova_orig] => chlazení elektrického stroje, žebrovaný kanál, hydraulické ztráty, součinitel přenosu tepla
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[citace_text] => VLACH, R.; Vysoké učení technické v Brně: Chladící systém magnetického obvodu elektrického stroje. 308049, Patent. (2019)
[citace_html] => VLACH, R.; Vysoké učení technické v Brně: Chladící systém magnetického obvodu elektrického stroje. 308049, Patent. (2019)
[citace_rtf] =>
[citace_bibtex] => @misc{BUT161373,
author="Radek {Vlach}",
title="Chladící systém magnetického obvodu elektrického stroje",
year="2019",
note="Patent"
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[poznamka_metriky] =>
[nazev_en] => Cooling system of electric machine magnetic circuit
[popis_en] => A cooling system of a magnetic circuit of an electric machine comprising a stator and a rotor, where the magnetic circuit of the stator is formed by a stator block composed of transversely arranged stator plates and the magnetic circuit of the rotor is formed by a rotor block formed from transversely arranged rotor plates. Forming a stator cooling channel after the stator plates have been assembled into the stator block and a rotor cooling channel after the rotor plates have been assembled into the rotor block. In the stator block and / or in the rotor block forming a stator cooling channel or a rotor cooling channel of diameter D, roughening stator sheets are inserted between the standard stator sheets and / or between the standard rotor sheets, the roughing rotor sheets are inserted between the standard rotor sheets. whose roughening edges are holes of diameter d, the ratio of d / D values being in the range of 0.90 to 0.95.
[klicova_slova_en] => cooling of electric machine, ribbed channel, hydraulic losses, heat transfer coefficient
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[popis] => Computational modelling shows its potential to became an additional tool required for an atherosclerotic plaque vulnerability assesment. For better understanding af a rupture mechanism, 3D patient specific models are necessary. This study was designed to investigate an importance of a specific properties of an outer wall layers on stress-strain response.
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[citace_text] => LISICKÝ, O.; BURŠA, J. Patient Specific Model of Carotid Artery Bifurcation with Atheroma. 2019.
[citace_html] => LISICKÝ, O.; BURŠA, J. Patient Specific Model of Carotid Artery Bifurcation with Atheroma. 2019.
[citace_rtf] =>
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author="Ondřej {Lisický} and Jiří {Burša}",
title="Patient Specific Model of Carotid Artery Bifurcation with Atheroma",
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note="Abstract"
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[popis_en] => Computational modelling shows its potential to became an additional tool required for an atherosclerotic plaque vulnerability assesment. For better understanding af a rupture mechanism, 3D patient specific models are necessary. This study was designed to investigate an importance of a specific properties of an outer wall layers on stress-strain response.
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[popis] => To consider tissue anisotropy in computational models of arterial wall, information on directions of collagen fibres and their dispersion in the individual layers of the wall is needed. Many papers introduce the assumption of two fibre families although its experimental substantiation is poor. In this paper we analyse data on direction distribution of collagen fibres published in several papers, in contrast to their authors, without any anticipatory assumptions. Histograms and their different mathematical representations are compared by means of coefficient of determination R2 to obtain the best representation of the experimental data. The results show that in most of the analysed cases other distributions give better representation of the experimental data; specifically, the presented bimodal fit was surpassed with uni-, trior quadri-modal distributions or even with isotropic distribution with a large noise. This effect could be even enhanced when information criteria were applied. Finally, the best mathematical representations of the data (the best fits) are transformed into parameters used by anisotropic constitutive models in FEM analyses.
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[popis_orig] => The most common technique for observation of collagen fibres and evaluation
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passes through a birefringent specimen, the plane of the polarized light is rotated.
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and both filters. If the orientation of the polarizer differs from the perpendicular
direction to the analyzer, the period of light intensity changes to 180◦; one of the
original maxima increases and the other decreases. This change is very useful for
the determination of directions of collagen fibres by an automatic algorithm.
[klicova_slova] => Polarized light microscopy; collagen fibers; birefrigence; light intensity
[klicova_slova_orig] => Polarized light microscopy; collagen fibers; birefrigence; light intensity
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[identifikator] => ISBN 978-3-030-32040-9
[identifikator_popis] => ISBN - VipIMAGE 2019
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[citace_text] => TURČANOVÁ, M.; HRTOŇ, M.; DVOŘÁK, P.; BURŠA, J. Influnce of Mutual Rotation of Polarizing Filters on Light Intensity Measured with Collagen Fibres. In VipIMAGE 2019. Porto, Portugalsko: Springer, 2019. p. 279-285. ISBN: 978-3-030-32040-9.
[citace_html] => TURČANOVÁ, M.; HRTOŇ, M.; DVOŘÁK, P.; BURŠA, J. Influnce of Mutual Rotation of Polarizing Filters on Light Intensity Measured with Collagen Fibres. In VipIMAGE 2019. Porto, Portugalsko: Springer, 2019. p. 279-285. ISBN: 978-3-030-32040-9.
[citace_rtf] =>
[citace_bibtex] => @inbook{BUT161919,
author="Michaela {Turčanová} and Martin {Hrtoň} and Petr {Viewegh} and Jiří {Burša}",
title="Influnce of Mutual Rotation of Polarizing Filters on Light Intensity Measured with Collagen Fibres",
booktitle="VipIMAGE 2019
",
year="2019",
publisher="Springer",
address="Porto, Portugalsko",
pages="279--285",
doi="10.1007/978-3-030-32040-9",
isbn="978-3-030-32040-9",
url="https://link.springer.com/chapter/10.1007/978-3-030-32040-9_29"
}
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[nazev_en] => Influnce of Mutual Rotation of Polarizing Filters on Light Intensity Measured with Collagen Fibres
[popis_en] => The most common technique for observation of collagen fibres and evaluation
of their directionality is polarized light microscopy. In the microscope, there
are two polarizing filters, polarizer and analyzer, that can rotate individually. The
default position of the polarizer is perpendicular to the analyzer. When the light
passes through a birefringent specimen, the plane of the polarized light is rotated.
This leads to a 90◦ periodic change in light intensity passing through the sample
and both filters. If the orientation of the polarizer differs from the perpendicular
direction to the analyzer, the period of light intensity changes to 180◦; one of the
original maxima increases and the other decreases. This change is very useful for
the determination of directions of collagen fibres by an automatic algorithm.
[klicova_slova_en] => Polarized light microscopy; collagen fibers; birefrigence; light intensity
[vysledek_datum] => 2019-09-28T00:00:00+02:00
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